UMLS:C0023467 - FACTA Search

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Query: UMLS:C0023467 (acute myeloid leukemia)
35,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

L-asparaginase from Escherichia coli--Crasnitin was used in 14 children with acute leukemia unresponsive to conventional treatment: 11 acute lymphoblastic leukemias, 1 acute myeloblastic leukemia, 2 other forms of leukemia. The remission induction was obtained in 70% of applications. Median of remission duration was 90 days. Serious side effects were observed. The validity of L-asparaginase in therapy of advanced childhood ALL is stressed.
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PMID:L-asparaginase in treatment of acute leukemia in children. 27 52

The most important advances achieved during the past 5 years in the diagnosis and treatment of acute leukemia are presented. It is now possible to achieve complete remission in about 60% of all patients with acute myelocytic leukemia (AML) using optimal polychemotherapy. This significant advance is in part due to improved supportive measures such as transfusions and isolation etc., which are frequently necessary during the induction phase of treatment. Unfortunately, such remissions are still of relatively short duration and seldom exceed 1 year. The treatment of relapses remains less successful. The first attempts to include immunotherapy in the treatment of AML have also been rather disappointing. Today remissions are obtained in 70% of patients with acute lymphocytic leukemia (ALL) which last, on the average, almost 1 1/2 years. These results, however, do not approach those in childhood ALL. Finally, the therapeutic possibilities for the treatment of blastic crisis in chronic myelocytic leukemia (CML) are discussed.
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PMID:[Progress in the treatment of acute leukemias]. 27 22

The initial features, response to therapy, complications, cause of death, and prognostic factors of 171 consecutive children with ANLL are described and compated to historical data for adults with ANLL and for children with ALL. Major differences between children and adults with ANLL include a higher frequency of CNS leukemia and a lower frequency of early deaths in the children. The most important differences between children with ANLL and ALL are the absence of a peak age of incidence in ANLL and the far better response to therapy in ALL. Among features present at 100,000/mm3 or above, and no palpable hepatomegaly had significantly longer survivals, while patients with platelet counts below 10,000/mm3 had significantly shorter survivals. The frequency and duration of remission were significantly better with three protocols used since 1968 than previously. However, even with these protocols, the results were far from satisfactory, with a complete remission frequency of 66%, a median duration of hematological remission of 6 months, and a median duration of survival of 10 months. The striking contrast of these results in childhood ANLL with current results in childhood ALL underscores the need for novel, imaginative therapeutic approaches for ANLL.
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PMID:Acute nonlymphocytic leukemia in 171 children. 78 98

Twenty-four children (2 to 21 years) diagnosed as having AML from 1969 to 1972 were randomized to receive either a single combination (COMP or PRAVD) or sequential combination chemotherapy (alternating POMP and PRAVD). Seventeen achieved complete remission. Patients who received POMP alone had the longest median duration of remission (1,400 days) compared to PRAVD (395 days) or POMP-PRAVD (270 days); interpretation of this difference is uncertain, since the numbers in each group are small. Fifteen patients have relapsed, four initially with CNS involvement. Successful reinduction was achieved almost exclusively for patients who had initially received POMP. Survival after first relapse was short. Patients less than 16 years had a median survival of 632 days, compared to 285 days for patiens greater than 16 (p less than 0.05). The high initial induction rate in these patients is encouraging, but the duration remission is inferior to that seen in childhood ALL. Moreover, the slope of the relapse curve is continuous over a five-year period with no definite plateau where it might appear that patients are no longer at risk of relapse. Improved methods for the treatment of childhood ALL and adult AML suggest possible new approaches to AML in children, with prophylactic treatment of central nervous system, late intensification, and immunotherapy.
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PMID:Acute myelogenous leukemia in children: a preliminary report of combination chemotherapy. 106 Jul 44

The t(4;11)(q21;q23) has been associated with marked lineage heterogeneity. Most of the reported cases were classified as acute lymphoblastic leukemia (ALL). The t(4;11) is one of the commonest specific chromosomal translocations in ALL, occurring in 2% of childhood and 5% of adult cases. In childhood ALL, this translocation is associated with female sex, age less than 1 year, hyperleukocytosis, CD10-/CD19+ B-precursor cell immunophenotype, and myeloid-associated antigen (CD15) expression. There also appears to be an age-related difference in treatment outcome. Adults had the worst prognosis, and children aged 1 to 9 years appeared to have a better outcome than infants or adolescents. Reported cases of acute myeloid leukemia (AML) or secondary leukemia with the t(4;11) have not been well characterized. It is intriguing that virtually all of the reported cases with secondary leukemia had received epipodophyllotoxins or doxorubicin, agents that affect topoisomerase II and are associated with secondary AML characterized by 11q23 abnormalities. Identification of the involved gene(s) in the t(4;11) will provide a molecular approach permitting more accurate classification of these cases.
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PMID:Acute leukemias with the t(4;11)(q21;q23). 147 45

Leukaemia is rare in infancy with an equal predominance of lymphoblastic and myeloblastic cases. Acute lymphoblastic leukaemia in infants under one year is characterised by a high leucocyte count, organomegaly, early B-cell phenotype, sometimes with evidence of monocytoid differentiation and cytogenetic abnormalities. This is reflected in its poor prognosis. The toddler (aged 1-2) tends to develop typical childhood ALL which is responsive to treatment, but remains vulnerable to late effects of therapy, particularly radiation. The distribution of subtypes of AML differs in the younger and older child and results of treatment have improved in all age groups. A uniform strategy appears desirable for all cases of childhood AML. It seems probable that different genetic and environmental factors may be involved in the genesis of infant ALL, childhood ALL and AML in children. The management of leukaemia in children under two poses a considerable challenge.
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PMID:Leukaemia in the young child. 150 27

Chromosome studies were carried out after a 24-hour harvest of unstimulated bone marrow aspirate cell cultures from a 75-year-old male with a clinical diagnosis of acute myelomonocytic leukemia (FAB M4). Analysis of nine cells after trypsin-Giemsa banding (GTG) revealed two cell lines with a mosaic chromosome pattern, 46,XY/46,XY,t(7;19)(q22;p13.3). A review of the recent literature reveals one case of childhood ALL with a 46,XY/46,XY,t(7;19)(q11;q13) chromosome pattern [1] and a 46,XY,t(3q;11q),t(7q;19p),t(15;17)(q26;q22) in one patient with ANLL (FAB M3) [2]. The t(7;19)(q22;p13.3) seen in our case has not been reported as the sole specific clonal chromosome rearrangement in myeloid neoplasia. Interestingly, the plasminogen activator inhibitor type I, multi-drug resistance, and erythropoietin genes are located at band 7q22 and the insulin receptor gene is located at band 19p13.3. Both sites contain fragile site loci. The possible role of these fragile sites, genes, or other genes in the rearrangement can only be surmised.
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PMID:Atypical (7;19) translocation in acute myelomonocytic leukemia. 175 94

An increasing number of papers document cases of acute leukemia in which individual blast cells co-express markers normally restricted to a single cell lineage. Numerous terms are used to refer to cases with unscheduled expression of lineage-foreign proteins; the best defined categories were hybrid acute leukemia and acute mixed-lineage leukemia. The incidence of phenotypically variant acute leukemia varies with the quality and quantity of parameters used and the stringency of the criteria employed for its definition. Considerable interest has focused on acute lymphoblastic leukemia (ALL) cells expressing one or several myeloid lineage-associated antigens (My+ ALL), CD13, CD14, CD15, CD33, and CDw65. Owing to legitimate and cryptic expression on lymphoid cells, CD11b and CD15 reagents may not be considered as specific indicators of myeloid differentiation. The reported incidence ranged from 5 to 46% in 14 studies on My+ ALL, totalling 3817 patients. Several detailed reports documented a higher incidence of My+ ALL in adults (realistically in the range 10-20%) than in children (5-10%) and in B-lineage ALL as opposed to T-lineage ALL. My+ ALL cases are more likely to display unique cytogenetic [t(9;22), 11q23, 14q32] features than My-neg ALL. There appears to be no predominant expression of a single myeloid-associated antigen among those analyzed. As the morphological diagnosis of a leukemia subtype is often imprecise, some T-neg B-neg My+ ALL cases might actually contain FAB AML-M0 populations. While the expression of myeloid-associated antigens has no apparent prognostic significance in the majority of childhood ALL subtypes, in adults myeloid antigens seem to identify a high risk group of ALL patients with a poorer response to standard ALL therapy.
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PMID:Review of the incidence and clinical relevance of myeloid antigen-positive acute lymphoblastic leukemia. 188 19

Improvement in therapies for childhood acute lymphocytic leukemia has resulted in cure for the majority of young people with this disease. Recent therapeutic advances have focused on testing more extensive treatments for cases with adverse clinical/biologic features, or pharmacologic studies to maximize dose intensity. The latter includes a trial of alternating high-dose intravenous methotrexate with high-dose intravenous 6-mercaptopurine given for the first year postremission in an attempt to circumvent the patient's natural variability of absorption and metabolism of these drugs. Patients with acute myeloid leukemia continue to fare much worse and only one in three are long-term survivors. Acute myeloid leukemia therapies emphasize the use of intensive toxic courses of cytarabine, etoposide, and an anthracycline to cytoreduce the leukemic clone. Acute progranulocytic leukemia, however, now appears to be responsive in vitro to the differentiation agent all-trans retinoic acid. For this disease, complex responses are now obtained without the use of conventional antineoplastics.
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PMID:Therapy for acute leukemias in children. 204 97

The evidence to date is compelling that steroid initiated cell lysis involves participation of the glucocorticoid receptor. Not only do the concentrations and specificity of hormones for cell lysis and receptor occupancy correspond, but also steroid resistant cells selected with or without prior mutagenesis often have altered receptors. The glucocorticoid receptor protein from humans and other species is a approximately 95,000 d, thiol group-containing monomer, prone to aggregation when "unactivated." After having bound steroid and been "activated," the monomeric steroid-receptor complex is altered in charge and shape so that its binding to chromatin and DNA is greatly enhanced. Simple measurement of numbers of receptor sites in cells from patients with various blood dyscrasias has given, in some disease, good correlations between high numbers of receptor sites and good therapeutic response. These correlations are strongest for childhood acute lymphoblastic leukemia (ALL) and for non Hodgkins' lymphoma. In other diseases, notably acute myelogenous leukemia, such correlations have not been found. The CEM human ALL line has been used in vitro to study mechanisms of glucocorticoid action and resistance. The requirement for "activated" steroid-receptor complex for cell lysis is shown in these cells by the spontaneous occurrence of steroid resistant, activation-labile receptor mutants. A second category of resistant cells with normal receptors has been defined. Treatment of these "lysis defective" resistant cells with compounds which result in DNA demethylation can render them steroid sensitive. Since DNA demethylation can allow formerly silent genes to become transcribed, it is possible that one or more genes specific for lysis has been "opened" in such cells. Alternatively, DNA demethylation may produce a general biochemical effect on the cell which renders it susceptible to lysis. Mutagenized CEM cells selected for steroid resistance give rise to a third class of mutants, which are deficient in receptor quantity. Each of these classes of steroid resistant cells contains information pertinent to understanding the use of glucocorticoids and the role of glucocorticoid receptors in human leukopathic disease.
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PMID:Glucocorticoid receptors in human leukemias and related diseases. 241 43

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